[ViewVC] Diff of: radiance/ray/src/px/macbethcal.c

Comparing ray/src/px/macbethcal.c (file contents):
Revision 2.2 by greg, Wed Oct 11 11:57:41 1995 UTC vs.
Revision 2.10 by greg, Wed Nov 1 09:04:16 1995 UTC

#	Line 18 \| Line 18 \| static char SCCSid[] = "$SunId$ LBL";
18		#include "resolu.h"
19		#include "pmap.h"
20
21	<	/* MacBeth colors (CIE 1931, absolute white) */
22	<	/* computed from spectral measurements */
21	>	/* MacBeth colors */
22	>	#define DarkSkin 0
23	>	#define LightSkin 1
24	>	#define BlueSky 2
25	>	#define Foliage 3
26	>	#define BlueFlower 4
27	>	#define BluishGreen 5
28	>	#define Orange 6
29	>	#define PurplishBlue 7
30	>	#define ModerateRed 8
31	>	#define Purple 9
32	>	#define YellowGreen 10
33	>	#define OrangeYellow 11
34	>	#define Blue 12
35	>	#define Green 13
36	>	#define Red 14
37	>	#define Yellow 15
38	>	#define Magenta 16
39	>	#define Cyan 17
40	>	#define White 18
41	>	#define Neutral8 19
42	>	#define Neutral65 20
43	>	#define Neutral5 21
44	>	#define Neutral35 22
45	>	#define Black 23
46	>	/* computed from 5nm spectral measurements */
47	>	/* CIE 1931 2 degree obs, equal-energy white */
48		float mbxyY[24][3] = {
49		{0.462, 0.3769, 0.0932961}, /* DarkSkin */
50		{0.4108, 0.3542, 0.410348}, /* LightSkin */
#	Line 50 \| Line 75 \| float mbxyY[24][3] = {
75		COLOR mbRGB[24]; /* MacBeth RGB values */
76
77		#define NMBNEU 6 /* Number of MacBeth neutral colors */
78	<	short mbneu[NMBNEU] = {23,22,21,20,19,18};
54	<	#define NMBMOD 3 /* Number of MacBeth moderate colors */
55	<	short mbmod[NMBMOD] = {1,2,21};
56	<	#define NMBSAT 6 /* Number of MacBeth saturated colors */
57	<	short mbsat[NMBSAT] = {14,12,13,15,16,17};
78	>	short mbneu[NMBNEU] = {Black,Neutral35,Neutral5,Neutral65,Neutral8,White};
79
80	+	#define NEUFLGS (1L<<White\|1L<<Neutral8\|1L<<Neutral65\| \
81	+	1L<<Neutral5\|1L<<Neutral35\|1L<<Black)
82	+
83	+	#define SATFLGS (1L<<Red\|1L<<Green\|1L<<Blue\|1L<<Magenta\|1L<<Yellow\| \
84	+	1L<<Cyan\|1L<<Orange\|1L<<Purple\|1L<<PurplishBlue\| \
85	+	1L<<YellowGreen\|1<<OrangeYellow\|1L<<BlueFlower)
86	+
87	+	#define UNSFLGS (1L<<DarkSkin\|1L<<LightSkin\|1L<<BlueSky\|1L<<Foliage\| \
88	+	1L<<BluishGreen\|1L<<ModerateRed)
89	+
90	+	#define REQFLGS NEUFLGS /* need these colors */
91	+	#define MODFLGS (NEUFLGS\|UNSFLGS) /* should be in gamut */
92	+
93	+	#define RG_BORD 0 /* patch border */
94	+	#define RG_CENT 01 /* central region of patch */
95	+	#define RG_ORIG 02 /* original color region */
96	+	#define RG_CORR 04 /* corrected color region */
97	+
98		int xmax, ymax; /* input image dimensions */
99		int bounds[4][2]; /* image coordinates of chart corners */
100		double imgxfm[3][3]; /* coordinate transformation matrix */
101
102	<	COLOR picRGB[24]; /* picture colors */
102	>	COLOR inpRGB[24]; /* measured or scanned input colors */
103	>	long inpflags = 0; /* flags of which colors were input */
104	>	long gmtflags = 0; /* flags of out-of-gamut colors */
105
106		COLOR bramp[NMBNEU][2]; /* brightness ramp (per primary) */
107		double solmat[3][3]; /* color mapping matrix */
108
109	<	FILE *debugfp = NULL;
109	>	FILE debugfp = NULL; / debug output picture */
110		char *progname;
111
112		extern char *malloc();
#	Line 75 \| Line 116 \| main(argc, argv)
116		int argc;
117		char **argv;
118		{
119	+	int inpispic = 1;
120		int i;
121
122		progname = argv[0];
123	<	if (argc > 2 && !strcmp(argv[1], "-d")) { /* debug output */
124	<	if ((debugfp = fopen(argv[2], "w")) == NULL) {
125	<	perror(argv[2]);
126	<	exit(1);
127	<	}
123	>	for (i = 1; i < argc && argv[i][0] == '-'; i++)
124	>	switch (argv[i][1]) {
125	>	case 'd': /* debug output */
126	>	i++;
127	>	if (badarg(argc-i, argv+i, "s"))
128	>	goto userr;
129	>	if ((debugfp = fopen(argv[i], "w")) == NULL) {
130	>	perror(argv[i]);
131	>	exit(1);
132	>	}
133		#ifdef MSDOS
134	<	setmode(fileno(debugfp), O_BINARY);
134	>	setmode(fileno(debugfp), O_BINARY);
135		#endif
136	<	newheader("RADIANCE", debugfp);
137	<	printargs(argc, argv, debugfp);
138	<	argv += 2;
139	<	argc -= 2;
140	<	}
141	<	if (argc != 3 && argc != 11)
142	<	goto userr;
143	<	if (strcmp(argv[1], "-") && freopen(argv[1], "r", stdin) == NULL) {
136	>	newheader("RADIANCE", debugfp); /* start */
137	>	printargs(argc, argv, debugfp); /* header */
138	>	break;
139	>	case 'p': /* picture position */
140	>	if (badarg(argc-i-1, argv+i+1, "iiiiiiii"))
141	>	goto userr;
142	>	bounds[0][0] = atoi(argv[++i]);
143	>	bounds[0][1] = atoi(argv[++i]);
144	>	bounds[1][0] = atoi(argv[++i]);
145	>	bounds[1][1] = atoi(argv[++i]);
146	>	bounds[2][0] = atoi(argv[++i]);
147	>	bounds[2][1] = atoi(argv[++i]);
148	>	bounds[3][0] = atoi(argv[++i]);
149	>	bounds[3][1] = atoi(argv[++i]);
150	>	inpispic = 2;
151	>	break;
152	>	case 'c': /* color input */
153	>	inpispic = 0;
154	>	break;
155	>	default:
156	>	goto userr;
157	>	}
158	>	/* open files */
159	>	if (i < argc && freopen(argv[i], "r", stdin) == NULL) {
160		perror(argv[1]);
161		exit(1);
162		}
163	<	if (strcmp(argv[2], "-") && freopen(argv[2], "w", stdout) == NULL) {
163	>	if (i+1 < argc && freopen(argv[i+1], "w", stdout) == NULL) {
164		perror(argv[2]);
165		exit(1);
166		}
167	+	if (inpispic) { /* load input picture header */
168		#ifdef MSDOS
169	<	setmode(fileno(stdin), O_BINARY);
169	>	setmode(fileno(stdin), O_BINARY);
170		#endif
171	<	if (checkheader(stdin, COLRFMT, NULL) < 0 \|\|
172	<	fgetresolu(&xmax, &ymax, stdin) < 0) {
173	<	fprintf(stderr, "%s: bad input picture\n", progname);
174	<	exit(1);
111	<	}
112	<	/* get chart boundaries */
113	<	if (argc == 11) {
114	<	for (i = 0; i < 4; i++) {
115	<	if (!isint(argv[2i+3]) \| !isint(argv[2i+4]))
116	<	goto userr;
117	<	bounds[i][0] = atoi(argv[2*i+3]);
118	<	bounds[i][1] = atoi(argv[2*i+4]);
171	>	if (checkheader(stdin, COLRFMT, NULL) < 0 \|\|
172	>	fgetresolu(&xmax, &ymax, stdin) < 0) {
173	>	fprintf(stderr, "%s: bad input picture\n", progname);
174	>	exit(1);
175		}
176	<	} else {
176	>	} else { /* else set default xmax and ymax */
177	>	xmax = 512;
178	>	ymax = 2*512/3;
179	>	}
180	>	if (inpispic != 2) { /* use default boundaries */
181		bounds[0][0] = bounds[2][0] = .029*xmax + .5;
182		bounds[0][1] = bounds[1][1] = .956*ymax + .5;
183		bounds[1][0] = bounds[3][0] = .971*xmax + .5;
184		bounds[2][1] = bounds[3][1] = .056*ymax + .5;
185		}
186		init(); /* initialize */
187	<	getcolors(); /* get picture colors */
187	>	if (inpispic) /* get picture colors */
188	>	getpicture();
189	>	else
190	>	getcolors();
191		compute(); /* compute color mapping */
192	+	/* print comment */
193	+	printf("{\n\tColor correction file computed by:\n\t\t");
194	+	printargs(argc, argv, stdout);
195	+	printf("\n\tUsage: pcomb -f %s uncorrected.pic > corrected.pic\n",
196	+	i+1 < argc ? argv[i+1] : "{this_file}");
197	+	printf("}\n");
198		putmapping(); /* put out color mapping */
199	<	putdebug(); /* put out debug picture */
199	>	if (debugfp != NULL) /* put out debug picture */
200	>	if (inpispic)
201	>	picdebug();
202	>	else
203	>	clrdebug();
204		exit(0);
205		userr:
206	<	fprintf(stderr, "Usage: %s [-d dbg.pic] input.pic output.cal [xul yul xur yur xll yll xlr ylr]\n",
206	>	fprintf(stderr,
207	>	"Usage: %s [-d dbg.pic][-p xul yul xur yur xll yll xlr ylr] input.pic [output.cal]\n",
208		progname);
209	+	fprintf(stderr, " or: %s [-d dbg.pic] -c [xyY.dat [output.cal]]\n",
210	+	progname);
211		exit(1);
212		}
213
#	Line 139 \| Line 215 \| userr:
215		init() /* initialize */
216		{
217		double quad[4][2];
218	+	register int i;
219		/* make coordinate transformation */
220		quad[0][0] = bounds[0][0];
221		quad[0][1] = bounds[0][1];
#	Line 153 \| Line 230 \| *init() / initialize /*
230		fprintf(stderr, "%s: bad chart boundaries\n", progname);
231		exit(1);
232		}
233	+	/* map MacBeth colors to RGB space */
234	+	for (i = 0; i < 24; i++)
235	+	xyY2RGB(mbRGB[i], mbxyY[i]);
236		}
237
238
239		int
240	<	chartndx(x, y) /* find color number for position */
240	>	chartndx(x, y, np) /* find color number for position */
241		int x, y;
242	+	int *np;
243		{
244		double ipos[3], cpos[3];
245		int ix, iy;
#	Line 171 \| Line 252 \| int x, y;
252		cpos[0] /= cpos[2];
253		cpos[1] /= cpos[2];
254		if (cpos[0] < 0. \|\| cpos[0] >= 6. \|\| cpos[1] < 0. \|\| cpos[1] >= 4.)
255	<	return(-1);
255	>	return(RG_BORD);
256		ix = cpos[0];
257		iy = cpos[1];
258		fx = cpos[0] - ix;
259		fy = cpos[1] - iy;
260	<	if (fx < .35 \|\| fx >= .65 \|\| fy < .35 \|\| fy >= .65)
261	<	return(-1);
262	<	return(iy*6 + ix);
260	>	np = iy6 + ix;
261	>	if (fx >= 0.35 && fx < 0.65 && fy >= 0.35 && fy < 0.65)
262	>	return(RG_CENT);
263	>	if (fx < 0.05 \|\| fx >= 0.95 \|\| fy < 0.05 \|\| fy >= 0.95)
264	>	return(RG_BORD);
265	>	if (fx >= 0.5) /* right side is corrected */
266	>	return(RG_CORR);
267	>	return(RG_ORIG); /* left side is original */
268		}
269
270
271	<	getcolors() /* load in picture colors */
271	>	getpicture() /* load in picture colors */
272		{
273		COLR *scanln;
274		COLOR pval;
275		int ccount[24];
276		double d;
277	<	int y;
278	<	register int x, i;
277	>	int y, i;
278	>	register int x;
279
280		scanln = (COLR )malloc(xmaxsizeof(COLR));
281		if (scanln == NULL) {
#	Line 197 \| Line 283 \| *getcolors() / load in picture colors /*
283		exit(1);
284		}
285		for (i = 0; i < 24; i++) {
286	<	setcolor(picRGB[i], 0., 0., 0.);
286	>	setcolor(inpRGB[i], 0., 0., 0.);
287		ccount[i] = 0;
288		}
289		for (y = ymax-1; y >= 0; y--) {
#	Line 206 \| Line 292 \| *getcolors() / load in picture colors /*
292		progname);
293		exit(1);
294		}
295	<	for (x = 0; x < xmax; x++) {
296	<	i = chartndx(x, y);
211	<	if (i >= 0) {
295	>	for (x = 0; x < xmax; x++)
296	>	if (chartndx(x, y, &i) == RG_CENT) {
297		colr_color(pval, scanln[x]);
298	<	addcolor(picRGB[i], pval);
298	>	addcolor(inpRGB[i], pval);
299		ccount[i]++;
300		}
301	+	}
302	+	for (i = 0; i < 24; i++) { /* compute averages */
303	+	if (ccount[i] == 0)
304	+	continue;
305	+	d = 1./ccount[i];
306	+	scalecolor(inpRGB[i], d);
307	+	inpflags \|= 1L<<i;
308	+	}
309	+	free((char *)scanln);
310	+	}
311	+
312	+
313	+	getcolors() /* get xyY colors from standard input */
314	+	{
315	+	int gotwhite = 0;
316	+	COLOR whiteclr;
317	+	int n;
318	+	float xyYin[3];
319	+
320	+	while (fgetval(stdin, 'i', &n) == 1) { /* read colors */
321	+	if (n < 0 \| n > 24 \|\|
322	+	fgetval(stdin, 'f', &xyYin[0]) != 1 \|\|
323	+	fgetval(stdin, 'f', &xyYin[1]) != 1 \|\|
324	+	fgetval(stdin, 'f', &xyYin[2]) != 1 \|\|
325	+	xyYin[0] < 0. \| xyYin[0] > 1. \|
326	+	xyYin[1] < 0. \| xyYin[1] > 1.) {
327	+	fprintf(stderr, "%s: bad color input data\n",
328	+	progname);
329	+	exit(1);
330		}
331	+	if (n == 0) { /* calibration white */
332	+	xyY2RGB(whiteclr, xyYin);
333	+	gotwhite++;
334	+	} else { /* standard color */
335	+	n--;
336	+	xyY2RGB(inpRGB[n], xyYin);
337	+	inpflags \|= 1L<<n;
338	+	}
339		}
340	<	for (i = 0; i < 24; i++) {
341	<	if (ccount[i] == 0) {
342	<	fprintf(stderr, "%s: bad chart boundaries\n",
340	>	/* normalize colors */
341	>	if (!gotwhite) {
342	>	if (!(inpflags & 1L<<White)) {
343	>	fprintf(stderr, "%s: missing input for White\n",
344		progname);
345		exit(1);
346		}
347	<	d = 1.0/ccount[i];
348	<	scalecolor(picRGB[i], d);
347	>	setcolor(whiteclr,
348	>	colval(inpRGB[White],RED)/colval(mbRGB[White],RED),
349	>	colval(inpRGB[White],GRN)/colval(mbRGB[White],GRN),
350	>	colval(inpRGB[White],BLU)/colval(mbRGB[White],BLU));
351		}
352	<	free((char *)scanln);
352	>	for (n = 0; n < 24; n++)
353	>	if (inpflags & 1L<<n)
354	>	setcolor(inpRGB[n],
355	>	colval(inpRGB[n],RED)/colval(whiteclr,RED),
356	>	colval(inpRGB[n],GRN)/colval(whiteclr,GRN),
357	>	colval(inpRGB[n],BLU)/colval(whiteclr,BLU));
358		}
359
360
#	Line 234 \| Line 364 \| COLOR y, x;
364		register int i, n;
365
366		for (i = 0; i < 3; i++) {
367	<	n = NMBNEU;
368	<	while (n > 0 && colval(x,i) < colval(bramp[--n][0],i))
369	<	;
367	>	for (n = 0; n < NMBNEU-2; n++)
368	>	if (colval(x,i) < colval(bramp[n+1][0],i))
369	>	break;
370		colval(y,i) = ((colval(bramp[n+1][0],i) - colval(x,i)) *
371		colval(bramp[n][1],i) +
372		(colval(x,i) - colval(bramp[n][0],i)) *
#	Line 248 \| Line 378 \| COLOR y, x;
378
379		compute() /* compute color mapping */
380		{
381	<	COLOR clrin[NMBMOD], clrout[NMBMOD];
381	>	COLOR clrin[24], clrout[24];
382	>	long cflags;
383		COLOR ctmp;
384	<	double d;
385	<	register int i;
386	<	/* map MacBeth colors to RGB space */
387	<	for (i = 0; i < 24; i++) {
388	<	d = mbxyY[i][2] / mbxyY[i][1];
389	<	ctmp[0] = mbxyY[i][0] * d;
259	<	ctmp[1] = mbxyY[i][2];
260	<	ctmp[2] = (1. - mbxyY[i][0] - mbxyY[i][1]) * d;
261	<	cie_rgb(mbRGB[i], ctmp);
384	>	register int i, j, n;
385	>	/* did we get what we need? */
386	>	if ((inpflags & REQFLGS) != REQFLGS) {
387	>	fprintf(stderr, "%s: missing required input colors\n",
388	>	progname);
389	>	exit(1);
390		}
391		/* compute piecewise luminance curve */
392		for (i = 0; i < NMBNEU; i++) {
393	<	copycolor(bramp[i][0], picRGB[mbneu[i]]);
393	>	copycolor(bramp[i][0], inpRGB[mbneu[i]]);
394		copycolor(bramp[i][1], mbRGB[mbneu[i]]);
395		}
396	<	/* compute color matrix */
397	<	for (i = 0; i < NMBMOD; i++) {
398	<	bresp(clrin[i], picRGB[mbmod[i]]);
399	<	copycolor(clrout[i], mbRGB[mbmod[i]]);
400	<	}
401	<	compsoln(clrin, clrout, NMBMOD);
396	>	/* compute color mapping */
397	>	do {
398	>	cflags = inpflags & ~gmtflags;
399	>	n = 0; /* compute transform matrix */
400	>	for (i = 0; i < 24; i++)
401	>	if (cflags & 1L<<i) {
402	>	bresp(clrin[n], inpRGB[i]);
403	>	copycolor(clrout[n], mbRGB[i]);
404	>	n++;
405	>	}
406	>	compsoln(clrin, clrout, n);
407	>	/* check out-of-gamut colors */
408	>	for (i = 0; i < 24; i++)
409	>	if (cflags & 1L<<i) {
410	>	cresp(ctmp, mbRGB[i]);
411	>	for (j = 0; j < 3; j++)
412	>	if (colval(ctmp,j) <= 0. \|\|
413	>	colval(ctmp,j) >= 1.) {
414	>	gmtflags \|= 1L<<i;
415	>	break;
416	>	}
417	>	}
418	>	} while (cflags & gmtflags);
419	>	if (gmtflags & MODFLGS)
420	>	fprintf(stderr,
421	>	"%s: warning - some moderate colors are out of gamut\n",
422	>	progname);
423		}
424
425
#	Line 304 \| Line 453 \| putmapping() /* put out color mapping for pcomb -f *
453		}
454		/* print color mapping */
455		printf("ro = %grn + %ggn + %g*bn ;\n",
456	<	solmat[0][0], solmat[1][0], solmat[2][0]);
456	>	solmat[0][0], solmat[0][1], solmat[0][2]);
457		printf("go = %grn + %ggn + %g*bn ;\n",
458	<	solmat[0][1], solmat[1][1], solmat[2][1]);
458	>	solmat[1][0], solmat[1][1], solmat[1][2]);
459		printf("bo = %grn + %ggn + %g*bn ;\n",
460	<	solmat[0][2], solmat[1][2], solmat[2][2]);
460	>	solmat[2][0], solmat[2][1], solmat[2][2]);
461		}
462
463
464	<	compsoln(cin, cout, n) /* solve 3x3 system */
464	>	compsoln(cin, cout, n) /* solve 3xN system using least-squares */
465		COLOR cin[], cout[];
466		int n;
467		{
#	Line 320 \| Line 469 \| int n;
469		double mat[3][3], invmat[3][3];
470		double det;
471		double colv[3], rowv[3];
472	<	register int i, j;
472	>	register int i, j, k;
473
474	<	if (n != 3) {
475	<	fprintf(stderr, "%s: inconsistent code!\n", progname);
474	>	if (n < 3) {
475	>	fprintf(stderr, "%s: too few colors to match!\n", progname);
476		exit(1);
477		}
478	<	for (i = 0; i < 3; i++)
479	<	for (j = 0; j < 3; j++)
480	<	mat[i][j] = colval(cin[j],i);
478	>	if (n == 3)
479	>	for (i = 0; i < 3; i++)
480	>	for (j = 0; j < 3; j++)
481	>	mat[i][j] = colval(cin[j],i);
482	>	else { /* compute A^t A */
483	>	for (i = 0; i < 3; i++)
484	>	for (j = i; j < 3; j++) {
485	>	mat[i][j] = 0.;
486	>	for (k = 0; k < n; k++)
487	>	mat[i][j] += colval(cin[k],i) *
488	>	colval(cin[k],j);
489	>	}
490	>	for (i = 1; i < 3; i++) /* using symmetry */
491	>	for (j = 0; j < i; j++)
492	>	mat[i][j] = mat[j][i];
493	>	}
494		det = mx3d_adjoint(mat, invmat);
495		if (fabs(det) < 1e-4) {
496		fprintf(stderr, "%s: cannot compute color mapping\n",
#	Line 342 \| Line 504 \| int n;
504		for (j = 0; j < 3; j++)
505		invmat[i][j] /= det;
506		for (i = 0; i < 3; i++) {
507	+	if (n == 3)
508	+	for (j = 0; j < 3; j++)
509	+	colv[j] = colval(cout[j],i);
510	+	else
511	+	for (j = 0; j < 3; j++) {
512	+	colv[j] = 0.;
513	+	for (k = 0; k < n; k++)
514	+	colv[j] += colval(cout[k],i) *
515	+	colval(cin[k],j);
516	+	}
517	+	mx3d_transform(colv, invmat, rowv);
518		for (j = 0; j < 3; j++)
519	<	rowv[j] = colval(cout[j],i);
347	<	mx3d_transform(rowv, invmat, colv);
348	<	for (j = 0; j < 3; j++)
349	<	solmat[j][i] = colv[j];
519	>	solmat[i][j] = rowv[j];
520		}
521		}
522
#	Line 354 \| Line 524 \| int n;
524		cvtcolor(cout, cin) /* convert color according to our mapping */
525		COLOR cout, cin;
526		{
527	+	COLOR ctmp;
528	+
529	+	bresp(ctmp, cin);
530	+	cresp(cout, ctmp);
531	+	if (colval(cout,RED) < 0.)
532	+	colval(cout,RED) = 0.;
533	+	if (colval(cout,GRN) < 0.)
534	+	colval(cout,GRN) = 0.;
535	+	if (colval(cout,BLU) < 0.)
536	+	colval(cout,BLU) = 0.;
537	+	}
538	+
539	+
540	+	cresp(cout, cin) /* transform color according to matrix */
541	+	COLOR cout, cin;
542	+	{
543		double r, g, b;
544
545	<	bresp(cout, cin);
546	<	r = colval(cout,0)solmat[0][0] + colval(cout,1)solmat[1][0]
547	<	+ colval(cout,2)*solmat[2][0];
548	<	if (r < 0) r = 0;
549	<	g = colval(cout,0)solmat[0][1] + colval(cout,1)solmat[1][1]
550	<	+ colval(cout,2)*solmat[2][1];
365	<	if (g < 0) g = 0;
366	<	b = colval(cout,0)solmat[0][2] + colval(cout,1)solmat[1][2]
367	<	+ colval(cout,2)*solmat[2][2];
368	<	if (b < 0) b = 0;
545	>	r = colval(cin,0)solmat[0][0] + colval(cin,1)solmat[0][1]
546	>	+ colval(cin,2)*solmat[0][2];
547	>	g = colval(cin,0)solmat[1][0] + colval(cin,1)solmat[1][1]
548	>	+ colval(cin,2)*solmat[1][2];
549	>	b = colval(cin,0)solmat[2][0] + colval(cin,1)solmat[2][1]
550	>	+ colval(cin,2)*solmat[2][2];
551		setcolor(cout, r, g, b);
552		}
553
554
555	<	putdebug() /* put out debugging picture */
555	>	xyY2RGB(rgbout, xyYin) /* convert xyY to RGB */
556	>	COLOR rgbout;
557	>	register float xyYin[3];
558		{
559	+	COLOR ctmp;
560	+	double d;
561	+
562	+	d = xyYin[2] / xyYin[1];
563	+	ctmp[0] = xyYin[0] * d;
564	+	ctmp[1] = xyYin[2];
565	+	ctmp[2] = (1. - xyYin[0] - xyYin[1]) * d;
566	+	cie_rgb(rgbout, ctmp);
567	+	}
568	+
569	+
570	+	picdebug() /* put out debugging picture */
571	+	{
572	+	static COLOR blkcol = BLKCOLOR;
573		COLOR *scan;
574	<	int y;
575	<	register int x, i;
574	>	int y, i;
575	>	register int x, rg;
576
379	–	if (debugfp == NULL)
380	–	return;
577		if (fseek(stdin, 0L, 0) == EOF) {
578		fprintf(stderr, "%s: cannot seek on input picture\n", progname);
579		exit(1);
#	Line 391 \| Line 587 \| *putdebug() / put out debugging picture /*
587		exit(1);
588		}
589		/* finish debug header */
590	+	fputformat(COLRFMT, debugfp);
591		putc('\n', debugfp);
592		fprtresolu(xmax, ymax, debugfp);
593	+	/* write debug picture */
594		for (y = ymax-1; y >= 0; y--) {
595		if (freadscan(scan, xmax, stdin) < 0) {
596		fprintf(stderr, "%s: error rereading input picture\n",
#	Line 400 \| Line 598 \| *putdebug() / put out debugging picture /*
598		exit(1);
599		}
600		for (x = 0; x < xmax; x++) {
601	<	i = chartndx(x, y);
602	<	if (i < 0)
601	>	rg = chartndx(x, y, &i);
602	>	if (rg == RG_CENT) {
603	>	if (!(1L<<i & gmtflags) \|\| (x+y)&07)
604	>	copycolor(scan[x], mbRGB[i]);
605	>	else
606	>	copycolor(scan[x], blkcol);
607	>	} else if (rg == RG_CORR)
608		cvtcolor(scan[x], scan[x]);
609	<	else
610	<	copycolor(scan[x], mbRGB[i]);
609	>	else if (rg != RG_ORIG)
610	>	copycolor(scan[x], blkcol);
611		}
612		if (fwritescan(scan, xmax, debugfp) < 0) {
613		fprintf(stderr, "%s: error writing debugging picture\n",
#	Line 412 \| Line 615 \| *putdebug() / put out debugging picture /*
615		exit(1);
616		}
617		}
618	+	/* clean up */
619	+	fclose(debugfp);
620	+	free((char *)scan);
621	+	}
622	+
623	+
624	+	clrdebug() /* put out debug picture from color input */
625	+	{
626	+	static COLR blkclr = BLKCOLR;
627	+	COLR mbclr[24], cvclr[24], orclr[24];
628	+	COLR *scan;
629	+	COLOR ctmp;
630	+	int y, i;
631	+	register int x, rg;
632	+	/* convert colors */
633	+	for (i = 0; i < 24; i++) {
634	+	setcolr(mbclr[i], colval(mbRGB[i],RED),
635	+	colval(mbRGB[i],GRN), colval(mbRGB[i],BLU));
636	+	if (inpflags & 1L<<i) {
637	+	setcolr(orclr[i], colval(inpRGB[i],RED),
638	+	colval(inpRGB[i],GRN),
639	+	colval(inpRGB[i],BLU));
640	+	cvtcolor(ctmp, inpRGB[i]);
641	+	setcolr(cvclr[i], colval(ctmp,RED),
642	+	colval(ctmp,GRN), colval(ctmp,BLU));
643	+	}
644	+	}
645	+	/* allocate scanline */
646	+	scan = (COLR )malloc(xmaxsizeof(COLR));
647	+	if (scan == NULL) {
648	+	perror(progname);
649	+	exit(1);
650	+	}
651	+	/* finish debug header */
652	+	fputformat(COLRFMT, debugfp);
653	+	putc('\n', debugfp);
654	+	fprtresolu(xmax, ymax, debugfp);
655	+	/* write debug picture */
656	+	for (y = ymax-1; y >= 0; y--) {
657	+	for (x = 0; x < xmax; x++) {
658	+	rg = chartndx(x, y, &i);
659	+	if (rg == RG_CENT) {
660	+	if (!(1L<<i & gmtflags) \|\| (x+y)&07)
661	+	copycolr(scan[x], mbclr[i]);
662	+	else
663	+	copycolr(scan[x], blkclr);
664	+	} else if (rg == RG_BORD \|\| !(1L<<i & inpflags))
665	+	copycolr(scan[x], blkclr);
666	+	else if (rg == RG_ORIG)
667	+	copycolr(scan[x], orclr[i]);
668	+	else /* rg == RG_CORR */
669	+	copycolr(scan[x], cvclr[i]);
670	+	}
671	+	if (fwritecolrs(scan, xmax, debugfp) < 0) {
672	+	fprintf(stderr, "%s: error writing debugging picture\n",
673	+	progname);
674	+	exit(1);
675	+	}
676	+	}
677	+	/* clean up */
678	+	fclose(debugfp);
679		free((char *)scan);
680		}

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/px/macbethcal.c (file contents): Revision 2.2 by greg, Wed Oct 11 11:57:41 1995 UTC vs. Revision 2.10 by greg, Wed Nov 1 09:04:16 1995 UTC

Diff Legend

Comparing ray/src/px/macbethcal.c (file contents):
Revision 2.2 by greg, Wed Oct 11 11:57:41 1995 UTC vs.
Revision 2.10 by greg, Wed Nov 1 09:04:16 1995 UTC